Marine Litter in Transitional Water Ecosystems: State of The Art Review Based on a Bibliometric Analysis
Water2020
25 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 40
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Cristina Munari,
Cristina Munari,
Francesca Provenza,
Francesca Provenza,
Francesca Provenza,
Francesca Provenza,
Francesca Provenza,
Cristina Munari,
Cristina Munari,
Cristina Munari,
Valentina H. Pauna,
Valentina H. Pauna,
Valentina H. Pauna,
Michele Mistri,
Michele Mistri,
Michele Mistri,
Michele Mistri,
Michele Mistri,
Francesca Provenza,
Francesca Provenza,
Francesca Provenza,
Francesca Provenza,
Francesca Provenza,
Monia Renzi
Monia Renzi
Monia Renzi
Cristina Munari,
Monia Renzi
Monia Renzi
Francesca Provenza,
Francesca Provenza,
Valentina H. Pauna,
Monia Renzi
Monia Renzi
Valentina H. Pauna,
Francesca Provenza,
Valentina H. Pauna,
Francesca Provenza,
Monia Renzi
Francesca Provenza,
Francesca Provenza,
Francesca Provenza,
Francesca Provenza,
Monia Renzi
Monia Renzi
Michele Mistri,
Monia Renzi
Monia Renzi
Monia Renzi
Francesca Provenza,
Francesca Provenza,
Monia Renzi
Francesca Provenza,
Francesca Provenza,
Francesca Provenza,
Francesca Provenza,
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Cristina Munari,
Monia Renzi
Monia Renzi
Cristina Munari,
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Cristina Munari,
Cristina Munari,
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Michele Mistri,
Michele Mistri,
Monia Renzi
Valentina H. Pauna,
Cristina Munari,
Monia Renzi
Monia Renzi
Monia Renzi
Francesca Provenza,
Francesca Provenza,
Michele Mistri,
Cristina Munari,
Cristina Munari,
Cristina Munari,
Cristina Munari,
Monia Renzi
Cristina Munari,
Cristina Munari,
Cristina Munari,
Cristina Munari,
Monia Renzi
Monia Renzi
Cristina Munari,
Monia Renzi
Francesca Provenza,
Cristina Munari,
Francesca Provenza,
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Michele Mistri,
Cristina Munari,
Valentina H. Pauna,
Michele Mistri,
Monia Renzi
Michele Mistri,
Cristina Munari,
Francesca Provenza,
Francesca Provenza,
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Michele Mistri,
Michele Mistri,
Cristina Munari,
Monia Renzi
Monia Renzi
Cristina Munari,
Cristina Munari,
Monia Renzi
Cristina Munari,
Monia Renzi
Michele Mistri,
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Cristina Munari,
Cristina Munari,
Cristina Munari,
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Monia Renzi
Michele Mistri,
Monia Renzi
Monia Renzi
Summary
This review used bibliometric analysis to synthesize the state of knowledge on marine litter in transitional water ecosystems including lagoons, estuaries, river deltas, and coastal ponds, identifying key human activities driving plastic inputs and highlighting the largely unknown impact on natural capital and ecosystem services.
Study Type
Environmental
Transitional water ecosystems (TWEs), despite their ecological and economic importance, are largely affected by human pressures that could be responsible for significant inputs of litter in the marine environment. Plastic input in coastal ponds, lagoons, river deltas and estuaries, could be driven by a wide range of human activities such as agriculture, waste disposal, municipal and industrial wastewater effluents, aquaculture, fishing and touristic activities and urban impacts. However, it remains unknown what the impact of plastic input in these TWEs could have on natural capital and, therefore, the ability for an ecosystem to provide goods and services to human beings. Given the large interest with regards to the conservation of transitional water ecosystems and the clear exposure risk to plastic and microplastic pollution, this study aims to perform: (i) a bibliometric analyses on existing literature regarding the levels of marine litter in such environments; (ii) a selection among the available literature of homogeneous data; and (iii) statistical analyses to explore data variability. Results suggest that: (i) research on microplastics in these ecosystems did not begin to be published until 2013 for lagoons, 2014 for river mouths and 2019 for coastal ponds. The majority of articles published on studies of microplastics in lagoons did not occur until 2019; (ii) sediments represent the matrix on which sampling and extraction variability allow the statistical analyses on data reported by the literature; (iii) the Analysis of Similarities (ANOSIM) test two-way evidenced that the level of protection of marine and terrestrial areas produced similar values while the habitat type showed low significance in terms of its effect on microplastic levels, shape and size in sediments.